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arxiv: 2506.14958 · v1 · pith:PBZYI7ILnew · submitted 2025-06-17 · 🪐 quant-ph

Long-Range Entangling Operations via Josephson Junction Metasurfaces

classification 🪐 quant-ph
keywords entanglingmetasurfacecouplinggatesjosephsonjunctionoperationsphase
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We present a framework for implementing two-qubit entangling operations between distant superconducting qubits using a space-time modulated Josephson junction metasurface. By modulating the surface in both space and time, we engineer sidebands with controllable wavevectors that selectively couple target qubits. The metasurface acts as a reconfigurable coupling medium, where the interaction strength is determined by engineered transmission coefficients rather than by exponentially decaying near-field coupling, thus reducing the dependence on physical proximity. We investigated the implementation of two-qubit interactions via iSWAP gates driven resonantly through the metasurface and controlled phase gates via geometric phase accumulation. Simulations show entangling fidelity exceeding 98% maintained over centimeter scale separations.

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